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all_matching_threads_iterator is used extensively in some pretty fast paths, often under the all_non_exited_threads function. If a filter target and thread-specific ptid are given, it iterates on all threads of all inferiors of that target, to ultimately yield exactly on thread. And this happens quite often, which means we unnecessarily spend time iterating on threads to find the one we are looking for. The same thing happens if an inferior-specific ptid is given, although there the iterator yields all the threads of that inferior. In those cases, the callers of all_non_exited_threads could have different behaviors depending on the kind of ptid, to avoid this inefficiency, but that would be very tedious. Using all_non_exited_threads has the advantage that one simple implementation can work seamlessly on multiple threads or on one specific thread, just by playing with the ptid. Instead, optimize all_matching_threads_iterator directly to detect these different cases and limiting what we iterate on to just what we need. - if filter_ptid is minus_one_ptid, do as we do now: filter inferiors based on filter_target, iterate on all of the matching inferiors' threads - if filter_ptid is a pid-only ptid (then a filter_target must necessarily be given), look up that inferior and iterate on all its threads - otherwise, filter_ptid is a thread-specific ptid, so look up that specific thread and "iterate" only on it For the last case, what was an iteration on all threads of the filter target now becomes a call to find_thread_ptid, which is quite efficient now thanks to inferior::ptid_thread_map. gdb/ChangeLog: * thread-iter.h (class all_matching_threads_iterator) <all_matching_threads_iterator>: Use default. <enum class mode>: New. <m_inf, m_thr>: Initialize. <m_filter_ptid>: Remove. * thread-iter.c (all_matching_threads_iterator::m_inf_matches): Don't filter on m_filter_ptid. (all_matching_threads_iterator::all_matching_threads_iterator): Choose path based on filter_ptid (all threads, all threads of inferior, single thread). (all_matching_threads_iterator::advance): Likewise. Change-Id: Ic6a19845f5f760fa1b8eac8145793c0ff431bbc9
README for GNU development tools This directory contains various GNU compilers, assemblers, linkers, debuggers, etc., plus their support routines, definitions, and documentation. If you are receiving this as part of a GDB release, see the file gdb/README. If with a binutils release, see binutils/README; if with a libg++ release, see libg++/README, etc. That'll give you info about this package -- supported targets, how to use it, how to report bugs, etc. It is now possible to automatically configure and build a variety of tools with one command. To build all of the tools contained herein, run the ``configure'' script here, e.g.: ./configure make To install them (by default in /usr/local/bin, /usr/local/lib, etc), then do: make install (If the configure script can't determine your type of computer, give it the name as an argument, for instance ``./configure sun4''. You can use the script ``config.sub'' to test whether a name is recognized; if it is, config.sub translates it to a triplet specifying CPU, vendor, and OS.) If you have more than one compiler on your system, it is often best to explicitly set CC in the environment before running configure, and to also set CC when running make. For example (assuming sh/bash/ksh): CC=gcc ./configure make A similar example using csh: setenv CC gcc ./configure make Much of the code and documentation enclosed is copyright by the Free Software Foundation, Inc. See the file COPYING or COPYING.LIB in the various directories, for a description of the GNU General Public License terms under which you can copy the files. REPORTING BUGS: Again, see gdb/README, binutils/README, etc., for info on where and how to report problems.